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8 - The crystallization of Clausius's phenomenological thermodynamics

from Part III - Reduction

Published online by Cambridge University Press:  04 August 2010

By
C. Ulises Moulines
Edited by
Gerhard Ernst  and
Andreas Hüttemann
Gerhard Ernst
Affiliation:
Universität Stuttgart
Andreas Hüttemann
Affiliation:
Westfälische Wilhelms-Universität Münster, Germany
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Summary

Introduction

The (metatheoretical) structuralist program for the reconstruction of scientific theories (in the following referred to as ‘structuralism’) allows for the performance of several metatheoretical tasks, among them: (a) precisely explicating the inner structure of any given ‘textbook’ theory in all its complexity; (b) making a clear distinction between different theories that in standard expositions are usually not clearly distinguished from each other, and identifying their intertheoretical relationships; (c) reconstructing their evolution in historical time. The present essay applies the structuralist methodology to the analysis of two writings of the German physicist Rudolf J. Clausius on thermodynamic phenomena published in the middle of the nineteenth century. Conventional historiography interprets these writings as the presentation of a first well-founded theory of phenomenological thermodynamics. However, as our analysis will show, Clausius actually constructed in his papers three different theories – each of them with its own identity, though of course related to each other.

The essentials of the structuralist representation of theories

Structuralism (without this name) was initiated by the pioneering works of Joseph D. Sneed, The Logical Structure of Mathematical Physics (1971) and Wolfgang Stegmüller, Theorienstrukturen und Theoriendynamik (1973). However, the present chapter employs the more evolved conceptual tools and representation methods to be found in the joint work, An Architectonic for Science, by Wolfgang Balzer, C. Ulises Moulines, and Joseph D. Sneed (1987). For those readers who are not well-acquainted with structuralist ideas, a brief summary of them is laid out in what follows.

Type
Chapter
Information
Time, Chance, and Reduction
Philosophical Aspects of Statistical Mechanics
 , pp. 139 - 158
Publisher: Cambridge University Press
Print publication year: 2010

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References

Balzer, W., Moulines, C. U. and Sneed, J. D. (1987). An Architectonic for Science. Dordrecht: Reidel.CrossRef
Caamaño, M. C. (2004). El problema de la inconmensurabilidad de las teorías científicas. Ph.D. thesis, University of Santiago de Compostela.
Callen, H. B. (1960). Thermodynamics. New York: Wiley.
Clausius, R. J. (1850). Über die bewegende Kraft der Wärme. Annalen der Physik, 79, 368–397, 500–524.CrossRefGoogle Scholar
Clausius, R. J. (1854). Über eine veränderte Form des zweiten Hauptsatzes der mechanischen Wärmetheorie. Annalen der Physik, 93, 481–506.CrossRefGoogle Scholar
Clausius, R. J. (1857). Über die Art der Bewegung, die wir Wärme nennen. Annalen der Physik, 100, 497–507.Google Scholar
Elkana, Y. (1974). The Discovery of the Conservation of Energy. London: Hutchinson.
Gibbs, J. W. (1876). On the equilibrium of heterogeneous substances, Part I. Transactions of the Connecticut Academy of Arts and Sciences 3. Reprinted in: The Scientific Papers of J. Willard Gibbs, ed. Bumstead, H. A. and Name, R. G.. New York: Longmans, Green & Co, 1906 (2nd edn, New Haven CT: Yale Univ. Press, 1957).
Moulines, C. U. (1991). The classical spirit in J. Willard Gibbs's classical thermodynamics. In Thermodynamics: History and Philosophy, ed. Martinás, K., et al. Singapore: World Scientific.
Moulines, C. U. (1996). Zur Typologie wissenschaftlicher Entwicklung nach strukturalistischer Deutung. In Cognitio humana – Dynamik des Wissens und der Werte, ed. Hubig, C.. Leipzig: Akademie-Verlag, pp. 397–410.
Sneed, J. D. (1971). The Logical Structure of Mathematical Physics. Dordrecht: Reidel (2nd revised edition 1978).CrossRef
Stegmüller, W. (1973). Theorienstrukturen und Theoriendynamik. Berlin: Springer-Verlag.

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